Thesis Abstract

Abstract
Wind energy is a sustainable and abundant source of renewable energy, with wind turbines playing a crucial role in harnessing this resource. The design and analysis of wind turbine blades are essential for maximizing energy capture efficiency and overall system performance. This thesis focuses on the development of an innovative wind turbine blade design through comprehensive analysis and optimization techniques. The primary objective of this research is to design a wind turbine blade that can operate efficiently under varying wind conditions while maintaining structural integrity and maximizing energy conversion. The study begins with a detailed review of existing literature on wind turbine blade design, aerodynamics, and structural analysis to establish a solid foundation for the research. The methodology chapter outlines the approach taken in the design and analysis process, which includes computational modeling, simulation, and experimental validation. Various design parameters such as blade geometry, material selection, and aerodynamic profiles are considered and optimized to enhance performance and reliability. The findings chapter presents the results of the analysis, including aerodynamic performance metrics, structural integrity assessments, and energy conversion efficiency. The discussion delves into the implications of the findings, highlighting the significance of the innovative design in improving overall wind turbine performance and sustainability. The conclusion chapter summarizes the key findings of the research and provides insights into the potential applications and future developments of the innovative wind turbine blade design. The study contributes to the advancement of wind energy technology by introducing a novel approach to blade design that enhances energy capture efficiency and system reliability. In conclusion, the design and analysis of an innovative wind turbine blade presented in this thesis offer promising prospects for enhancing the performance and sustainability of wind energy systems. Further research and development in this area have the potential to drive the adoption of wind energy as a key contributor to the global renewable energy mix.

Thesis Overview